Two-body wave functions and compositeness from scattering amplitudes: II. Application to the physical N and resonances

Abstract

The meson-baryon molecular components for the N and resonances are investigated in terms of the compositeness, which is defined as the norm of the two-body wave function from the meson-baryon scattering amplitudes. The scattering amplitudes are constructed in a π N-η N-σ N- N-π coupled-channels problem in a meson exchange model together with several bare N and states, and parameters are fitted so as to reproduce the on-shell π N partial wave amplitudes up to the center-of-mass energy 1.9 GeV with the orbital angular momentum L 2. As a result, the Roper resonance N (1440) is found to be dominated by the π N and σ N molecular components while the bare-state contribution is small. The squared wave functions in coordinate space imply that both in the π N and σ N channels the separation between the meson and baryon is about more than 1 fm for the N (1440) resonance. On the other hand, dominant meson-baryon molecular components are not observed in any other N and resonances in the present model, although they have some fractions of the meson-baryon clouds.